Pleaser help, this is from applied statics and strength of materials?
What language are you using? C? C++? Python?
Schools in CT that offer a "statics and strength of materials" summer course?
im attending the u of utah right now, but i want to take a "statics and strength of materials" course during the summer in connecticut. i've looked through most schools that would likely have a class like this but without much luck. the credit i receive from this class needs to transfer back to the university of utah for next fall. the university of utah's course description reads as follows: 1300 Statics and Strength of Materials: Forces, moments, couples, and resultants; static equilibrium and statically equivalent force systems, center of gravity and center of pressure; free body method of analysis; friction; internal forces in members, concept of stress and strain; Hooke's law, application to problems in tension/compression, shear torsion, and bending. it would help if the school is ABET accredited as well, but not required. any help appreciated. thanks
Torsion problem... Strength of materials..?
rigidity skill the quantity of deflection for a given load. For a torsion concern, meaning greater advantageous 2d of inertia, or greater advantageous areas for greater figidity. bigger modulus will artwork additionally. potential is a various rely. maximum engineering aspects fall right into some categories, like brittle and ductile aspects. potential is the optimum load you may prepare before you get everlasting deformation. notably unusual to accomplish that in a brittle cloth, as they many times basically wreck, yet greater probably with a ductile cloth like a metallic. you have viewed a fork or a spoon or a sheet of metallic completely deformed yet not broken. you have surpassed yield yet not appropriate for that ductile cloth.
A general question about statics and dynamics?
Well, statics and dynamics have different principles. If you can handle statics easily, you can take dynamics at the same time. But if you are having difficult time in statics, try to master it first before proceeding with dynamics. Some statics subjects are pre-requisite to some dynamics subjects that's why they separate it in different semester. One reason why they put it in the same semester is to accelerate the studies of student. If you can accelerate why not.
Hard Dynamics (Statics) Question?
The question is as follows: a man (mass 45 kg) hangs on a 17m long rope that is hung between two buildings that are 13m appart. The man holds on to the rope 5m from one end (of the rope). The rope does not break. Determine the force of tension on the two sections of rope. I started by drawing a displacment triangle and determining the angles using the cosine law. Than a drew and FBD. The 2 answers were 1500N and 3600N which seam pretty realistic. I came up with something around 220N. Anyway the problem is pretty hard but if anyone thinks they can help me please try. I'm taking a Physics 12-U course and averaging %94. This problem had me beat.
Statics vs. Dynamics vs. Mechanics of Materials?
Haha, you're going the opposite route of me. I went from Mech to Nuclear :D And then ended up graduating both in a combined programme lol. From my experience, it depends which year you're in. Engineering disciplines start to differ a lot in third and fourth year. Mechanical and Nuclear are remarkably alike in first and second. So, it really shouldn't be a big of a problem. Dynamics is just a different concept, with the same thought process. Instead of having the bodies at rest, in an equilibrium, they are accelerating. If you did really well in Statics, Dynamics shouldn't hit you much harder. Mechanics of Materials (and now Material engineers can hate me) is boring. That was basically my only problem with it. But as everything else, it's not hard as long as you put an effort into it. That won't be *THE* exam that you end up writing seven times. (You should've waited for reactor physics for that experience :D) In any case, good luck. :)
Mechanics Of Materials Edition 4 Beer, Johnston, De Wolf : Beer, Johnston, De Wolf : Free Download & Streaming : Internet ArchiveSimply ask Isaac Newton. I'm not sure about 2nd edition, but can provide you with 4th.
Thanks for the A2AFocusing on the fundamentals of material statics and strength, Applied Statics and Strength of Materials, Fifth Editionpresents a non-Calculus-based, elementary, analytical, and practical approach, with rigorous, comprehensive example problems that follow the explanation of theory and very complete homework problems that allow trainees to practice the material. The goal of the book is to provide readers with the necessary mechanics background for more advanced and specialized areas of study in the many fields of engineering technology — for example, civil, mechanical, construction, architectural, industrial, and manufacturing.
Solid mechanics or Mechanics of solids is the branch of Mechanics, Physics, Mathematics that concerns the behavior of solid matter under external actions (e.g., external forces, temperature changes, applied displacements, etc.).OrIt is a branch of science which deals with the internal effects of the forces on the bodies when they are loaded, from initial point to rupture or break.Strength of Materials:-Strength of materials deals with the relations between externally applied loads and their internal effects on the bodies.
Yes, they are the two most important aspects in mechanical engineering.Engineering mechanics is the fundamentals of mechanical engineering. Going forward, they form the basis of strength of materials and theory of machine primarily. Principles of engineering mechanics are also used as fundamental basis of fluid mechanics, thermodynamics and heat transfer. Manufacturing engineering is based upon machine design, which also derives its fundamentals from strength of materials and hence engineering mechanics.There are many books which explain these subjects in a lucid manner. However, if you have doubt in your understanding of basic mechanics as presented in Class 11-12 Physics course, you should go through them to gain a better understanding. Topics like Newton's laws, friction, etc must be understood before you go in depth into engineering mechanics.As with all technical topics, practicing problems with increasing difficulty helps in gaining expertise in a subject. Here are some books that you may go through and find the one that is most suitable for your need. Pick up a book and practice the problems, a lot.Engineering Mechanics: Statics & Dynamics, by Hibbeler.Engineering Mechanics: Statics & Dynamics, by Meriam & Kraige.Engineering Mechanics: Statics & Dynamics, by Andrew Pytel and Jaan Kiusalaas.Watching videos from MIT OCW or NPTEL will also help.